What LumActiv® Can Do For You

Sanitize Surfaces

Remove VOCs & Malodors

Self-Cleaning Surfaces

Mitigates Pollution

Photocatalytic

LumActiv® Light-Activated Anti-bacterial Coating

LumActiv® is a patented anti-bacterial coating that helps keep your school, hospital, office or shopping center safe, clean and smelling fresh without breaking the bank. Proven effective in decreasing or eliminating indoor and outdoor surface contaminants and airborne pollutants, LumActiv can help keep you, your workforce and visitors care-free and healthy. Sustainable and environmentally friendly, photocatalytic coatings like LumActiv have been shown to kill microbes like bacteria, fungi, parasites, germs, etc.

Best for use in: Hard and soft surfaces, both inside and outdoors

Coverage: 475 sq. ft. per 1 Liter / 4,750 sq. ft. per 10 Liters

Read the application manual to ensure optimum performance

  • Protects surfaces from microbes like bacteria, fungi, parasites, germs, etc.
  • 3x stronger than chlorine, 1.5x stronger than ozone
  • Effective against E.Coli, Staph, Salmonella
  • Non-Toxic
  • ISO Certified
  • Breaks down VOCs, NOx and other airborne pollutants
  • Improves air quality in dense urban environments
  • Can be applied toward LEED credits for air quality
  • Interior/exterior application
  • Reacts with visible and UV light
  • Creates a super hydrophilic surface allowing water to wash away contaminants
  • Reduces need for building cleaning and maintenance

How does the LumActiv Technology work?

LumActiv uses photocatalytic titanium dioxide (TiO2) nanoparticles to absorb ultraviolet (UV) and visible light to drive the decomposition of water to hydroxyl radicals or organic and inorganic compounds to their oxidized forms (such as nitrous oxide (Nox) to nitrate salts). The hydroxyls produced can undergo further reactions with odors, organic and inorganic compounds, and pollution to eliminate harmful species in the air and produce water in a catalytic cycle.

What is a photocatalyst?

Photo- meaning light and catalyst- being a component that speeds up a reaction without being consumed; therefore, a “photocatalyst” is a material that, in the presence of light, speeds up a chemical reaction without being consumed.

The reaction that is being sped up with LumActiv is the production of hydroxyl radicals from UV light. This is a naturally occurring process that occurs in the atmosphere to help clean the planet. Hydroxyl radicals are known as the “atmosphere’s detergent” for their impressive cleaning power. Water is a co-catalyst in the reaction to clean the air.

What version of LumActiv is used where?

LumActiv Multipurpose: Surfaces exposed to large amounts of UV light, outdoor applications

Table 1. LumActiv products evaluated for their performance on various metrics on a 1-5 scale.

Coating Applicability Durability Safety Soil Proof Photocatalytic Oxidation Super-Hydrophilicity Visible Light Responsive VOC Reduction Air Purification
MultiPurpose 5 4 4 4 4 4 3 4 4

 

What type of equipment is needed to apply LumActiv:

 

An HVLP (high-volume, low-pressure) sprayer can be used to apply LumActiv. Any nozzle size between 1.0-1.3mm is applicable. A pressure of 30 psi should be used when applying the LumActiv.

How is LumActiv applied?

 

The HVLP sprayer should be held straight up and down, with the nozzle tip 20-30 centimeters (8-12 inches) away from the substrate so that a fine mist can be formed before reaching the surface. Rotate the nozzle tip when spraying. When moving the spray gun horizontally the tip should be vertical. When moving the spray gun vertically the tip should be horizontal. Spray pattern should be followed as shown below. 10 minutes should be allowed between coats in order to achieve optimal adhesion. Dry time can be accelerated with heat.

 

What is the surface preparation required before applying LumActiv?

Ensure a clean, dry surface before application. For glass and other hard surfaces a surface degreaser, such as Drywired Glass Cleaner, can be used. If glass is heavily soiled, a glass scraper may be necessary. If the surface is organic in nature and will be exposed to large amounts of UV exposure, LumActiv Primer should be applied prior to the final LumActiv product.

When is LumActiv Primer used?

LumActiv Primer is used under two conditions, the first being on an organic surface to act as an inorganic barrier between the active LumActiv coating and the substrate the coating is being applied to, such as an organic paint. The LumActiv Primer can also be used to increase adhesion and act as a binding agent between the surface and the coating.

What can be done if the LumActiv does not adhere to the substrate?

For plastic and other hard hydrophobic surfaces, TiO2 particles have difficulty adhering. It is recommended to add acrylic or urethane resin in LumActiv Primer and LumActiv Multipurpose or Indoor to obtain strong adhesion. Normally 0.1% – 0.3% by weight. In the case of a glass surface, Drywired Glass Cleaner should be used in combination with a glass scraper, followed by isopropyl alcohol to prepare the surface.

What is the dry time of LumActiv?

3 to 12 hours are required for the film to fully dry. The dry time can be accelerated with heat so long as the temperature does not exceed 600C. Once the coating has fully dried, the coating will not dissolve in water.

What is the cure time of LumActiv?

The coating will fully cure in about 2 months. At this point, the coating will have achieved maximum hardness (2H-5H depending on the coating/substrate).

How is LumActiv removed?

If there is an area of the coating that needs to be reworked, the coating should be removed immediately. Coating can be removed by wiping with water and a cloth.

How should LumActiv equipment be cleaned?

All tools can be rinsed with water to remove any remaining coating solution.

What is the shelf life of LumActiv?

LumActiv Multipurpose: 5 years, unopened, from the date of manufacture if stored under recommended conditions.

Is LumActiv certified?

Photocatalytic:

-ISO 22197: Photocatalytic material – Certified

ISO 22197-1:2007 (Removal of NOx)

ISO 22197-2:2011 (removal of acetaldehyde)

ISO 22197-3:2011 (removal of toluene)

ISO 22197-4:2013 (removal of formaldehyde)

Durability:

-ASTM G 154: Artificial Weathering – No Changes

-ASTM D 4585: Humidity – No Changes

-ASTM D 1308: Chemical Resistance – No Changes

What is TiO2?

TiO2 is titanium dioxide. It is one of the oldest known and well-studied chemical compounds. It is widely used in paints and food products as a white pigment. It is also a semiconductor material that can efficiently absorb UV light. Another widely used semiconductor material is silicon; it is used to absorb visible light and produce electricity in solar panels. The energy of UV light and TiO2’s semiconductor bandgap (energy difference in filled and unfilled electronic states) overlap making TiO2 an efficient UV absorber.

What is UV?

Ultraviolet (UV) is invisible, high-energy light making up 6.6% of the incident solar energy that hits the planet from the Sun. Harmful UV corresponds to light that is shorter than 400 nm in the electromagnetic spectrum. Visible light is from 400-750 nm. The longer the wavelength of light, the less energy the light has.

What is a nanoparticle?

A nanoparticle is any particle whose diameter is between 1-100 nanometers (nm) in size. A nanometer is 1,000,000,000 or 1 billion times smaller than a meter. The average human hair is 17,000 – 181,000 nm thick. These small particles have incredibly high surface areas and interesting chemical and optical properties. The high surface area increases the particle’s effectiveness in performing chemical reactions. The advent of nanotechnology, the science of materials 10,000 times thinner than a human hair, allows LumActiv to do more with less. The average nanoparticle in LumActiv is 10 nm.

PathogenResults
Norwalk Virus (Norovirus)99.6% Reduction
Methicillan-resistant Staphylococcus aureus (MRSA)99.9% Reduction
Staphylococcus aureus (S.aureus)99.8% Reduction
Clostridium difficile99.8% Reduction
Listeria monocytogenes (Listeria)97.3% Reduction
Group A streptococci (GAS)97.4% Reduction
Pseudomonas aeruginosa99.9% Reduction
Streptococcus pneumonia99.9% Reduction
Bacillus anthracis (Anthrax)97.6% Reduction
H1N1 (Swine flu)99.9% Reduction
H5N1 (Bird flu)99.9% Reduction
Stachybotrys chartarum (Fungus and spores)99.4% Reduction
Candida albicans (Mold and spores)99.5% Reduction
Volatile Organic Compounds (Over 60 VOCs)91% Reduction
Volatile Inorganic Compounds (Ammonia/ Nox/ H2S/ Sox/ O3)89% Reduction
Odors (Alkanes, Acetone, Alcohols, Ketones)87% Reduction
Basidiospores (Allergens, Fungus, Ringworm)99.4% Reduction
Allergens (Pet dander, dust mite antigens)91% Reduction

Lumactiv Primer:

  • 1 Liter: ~570 sq. ft
  • 10 Liter: ~5,700 sq. ft

Lumactiv Indoor:

  • 1 Liter: ~475 sq. ft
  • 10 Liter: ~4,750 sq. ft

Lumactiv Multipurpose:

  • 1 Liter: ~475 sq. ft
  • 10 Liter: ~4,750 sq. ft

Equipment

An HVLP spray gun with gravity feed cup is recommended for all versions.

The nozzle size recommended for application of LumActiv® Glass is smaller than the other versions of LumActiv® for this reason as well.Recommended spray tip size for LumActiv® Glass is 0.8mm.

Recommended spray tip size for LumActiv® Primer, LumActiv® Multipurpose, and LumActiv® Indoor is 1.0mm.

A pressure of 30 psi (pounds per square inch) at the spray gun should be used when applying all versions LumActiv® . A minimum of 125 psi at the compressor is required.

Application 

Coating Process
The HVLP (high-volume, low-pressure) spray gun must be filled with the measured amount of LumActiv® solution. The HVLP gun should be held straight up and down, vertically at all times during application. The HVLP should not rotate at anytime during the application process. The HVLP should remain perpendicular to the substrate which is being coated.
The tip of the HVLP nozzle should be 8-12 inches from the surface where the coating is being applied so that a fine mist is formed before the coating solution reaches the surface.

Recommended Application Technique

Four passes in a cross-hatch pattern of the coating are necessary for completion of the coating application. Two of the passes should be in the vertical direction, and two of the passes should be in the horizontal direction. The reason for the suggested four passes is to avoid missing any spots on the substrate when coating and to ensure an evenly coated surface. If too much product is applied during the first two passes of a coating area, do not apply more than the recommended amount of coating solution.
Read the full instructions in the application manual to ensure optimum performance.

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